Temperature prediction can enhance datacenter thermal management towards minimizing cooling power draw. Traditional approaches achieve this through analyzing task-temperature profiles or resistor-capacitor circuit models to predict CPU temperature. However, they are unable to capture task resource heterogeneity within multi-tenant environments and make predictions under dynamic scenarios such as virtual machine migration, which is one of the main characteristics of Cloud computing. This paper proposes virtual machine level temperature prediction in Cloud datacenters. Experiments show that the mean squared error of stable CPU temperature prediction is within 1.10, and dynamic CPU temperature prediction can achieve 1.60 in most scenarios
Data Centers are huge power consumers, both because of the energy required for computation and the c...
As we are living in a data-driven world and directed toward internet, the need for data enter is gro...
Data Centers are huge power consumers, both because of the energy required for computation and the c...
Temperature prediction can enhance datacenter thermal management towards minimizing cooling power dr...
Energy consumed by Cloud datacenters has dramatically increased, driven by rapid uptake of applicati...
Data centres have become essential with the increasing popularity of cloud computing. Server overhea...
Energy consumed by Cloud datacenters has dramatically increased, driven by rapid uptake of applicati...
Data centers account for approx. 1.4% of the world’s electricity consumption, of which up to 50% of ...
Efficient thermal management is important in modern data centers as cooling consumes up to 50 % of t...
As temperature-efficient of cloud datacenters becomes one of many challenges faces the engineers in ...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Cloud computing has rapidly emerged as a widely accepted computing paradigm, but the research on Clo...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
The flourishing development of the cloud computing paradigm provides several services in the industr...
Data centres account for approx. 1.3% of the world\u27s electricity consumption, of which up to 50% ...
Data Centers are huge power consumers, both because of the energy required for computation and the c...
As we are living in a data-driven world and directed toward internet, the need for data enter is gro...
Data Centers are huge power consumers, both because of the energy required for computation and the c...
Temperature prediction can enhance datacenter thermal management towards minimizing cooling power dr...
Energy consumed by Cloud datacenters has dramatically increased, driven by rapid uptake of applicati...
Data centres have become essential with the increasing popularity of cloud computing. Server overhea...
Energy consumed by Cloud datacenters has dramatically increased, driven by rapid uptake of applicati...
Data centers account for approx. 1.4% of the world’s electricity consumption, of which up to 50% of ...
Efficient thermal management is important in modern data centers as cooling consumes up to 50 % of t...
As temperature-efficient of cloud datacenters becomes one of many challenges faces the engineers in ...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Cloud computing has rapidly emerged as a widely accepted computing paradigm, but the research on Clo...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
The flourishing development of the cloud computing paradigm provides several services in the industr...
Data centres account for approx. 1.3% of the world\u27s electricity consumption, of which up to 50% ...
Data Centers are huge power consumers, both because of the energy required for computation and the c...
As we are living in a data-driven world and directed toward internet, the need for data enter is gro...
Data Centers are huge power consumers, both because of the energy required for computation and the c...